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Explore the fundamentals of wireless sensor networking, including Moore’s and Bell’s Laws, Mote anatomy, and exciting applications like precision vineyard agriculture and Zebra tracking. Discover how sensors, microcontrollers, and batteries work together to transmit data from the physical world. Whether monitoring the Golden Gate Bridge or tracking multiple targets, this presentation offers a comprehensive overview of this cutting-edge technology.
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EE 301 Presentation Professor Babak Ayazifar Jay Taneja Fall Semester 2005 Wireless Sensor Networking:The Absolute Basics
Moore’s Law “Stuff” (transistors, etc) doubling every 1-2 years Bell’s Law New computing class every 10 years Faster, Smaller, More Streaming Data to/from the Physical World log (people per computer) year
Introduction to a “Mote” Definition: (n.) A deep wide ditch, usually filled with water, typically surrounding a fortified medieval town, fortress, or castle as a protection against assault. REAL Definition: (n.) A wireless receiver/transmitter that is typically combined with a sensor of some type to create a remote sensor. Some motes are designed to be incredibly small so that they can be deployed by the hundreds or even thousands for various applications.
Radio - “the mouth” Sensor - “the eyes and ears” Microcontroller - “the brain” Battery - “heart and lungs” Anatomy of a Mote
Precision Vineyard Agriculture Zebra Tracking in Kenya Golden Gate Bridge Monitoring Multiple Target Tracking Sensoria Minefield Exciting Applications
Does anyone have any questions? If you do, I would be happy to answer them to the best of my ability. If you do not have questions, I hope you enjoyed my presentation. If you do have questions, hopefully you will have enjoyed my presentation when I am done answering your questions.
